How Does an Implantable Cardioverter Defibrillator Work?

An implantable cardioverter defibrillator (ICD) has wires with electrodes on the ends that connect to one or more of your heart's chambers. These wires carry the electrical signals from your heart to a small computer in the ICD. The computer monitors your heart rhythm.

If the ICD detects an irregular rhythm, it sends low-energy electrical pulses to prompt your heart to beat at a normal rate. If the low-energy pulses restore your heart's normal rhythm, you might avoid the high-energy pulses or shocks of the defibrillator (which can be painful).

Single-chamber ICDs have a wire that goes to either the right atrium or right ventricle. The wire senses electrical activity and corrects faulty electrical signaling within that chamber.

Dual-chamber ICDs have wires that go to both an atrium and a ventricle. These ICDs provide low-energy pulses to either or both chambers. Some dual-chamber ICDs have three wires. They go to an atrium and both ventricles.

The wires on an ICD connect to a small metal box implanted in your chest or abdomen. The box contains a battery, pulse generator, and small computer. When the computer detects irregular heartbeats, it triggers the ICD's pulse generator to send electrical pulses. Wires carry these pulses to the heart.

The ICD also can record the heart's electrical activity and heart rhythms. The recordings can help your doctor fine-tune the programming of your ICD so it works better to correct irregular heartbeats.

The type of ICD you get is based on your heart's pumping abilities, structural defects, and the type of irregular heartbeats you've had. Your ICD will be programmed to respond to the type of arrhythmia you're most likely to have.

Clinical trials are
research studies that explore whether a medical strategy, treatment, or device is safe and effective for humans.
To find clinical trials that are currently underway for Implantable Cardioverter Defibrillators, visit
www.clinicaltrials.gov.